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All Journal HAYATI Journal of Biosciences Jurnal Agronomi Indonesia (Indonesian Journal of Agronomy) Jurnal Ilmu Pertanian Indonesia Jurnal Teknologi Dan Industri Pangan Journal of Tropical Life Science : International Journal of Theoretical, Experimental, and Applied Life Sciences Jurnal Veteriner Microbiology Indonesia BIOTROPIA - The Southeast Asian Journal of Tropical Biology Jurnal Pengelolaan Sumberdaya Alam dan Lingkungan (Journal of Natural Resources and Environmental Management) Jurnal Sumberdaya Hayati JURNAL BIOLOGI INDONESIA ANNALES BOGORIENSES Biosaintifika: Journal of Biology & Biology Education Menara Perkebunan Floribunda Jurnal Ilmiah Sains Annales Bogorienses
Nampiah Sukarno
Department Of Biology, Faculty Of Mathematics And Natural Sciences, IPB University, Bogor, Indonesia
Agriculture, Biological Sciences & Forestry Biochemistry, Genetics & Molecular Biology Chemical Engineering, Chemistry & Bioengineering Chemistry Computer Science & IT Earth & Planetary Sciences Economics, Econometrics & Finance Environmental Science Immunology & microbiology Industrial & Manufacturing Engineering Mathematics Medicine & Pharmacology Physics Veterinary

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Pembersihan Isi Sel Akar dan Jenis Warna Tinta untuk Deteksi Cendawan Mikoriza Arbuskula: Clearing of Root Cell Content and Types of Ink Stain for Arbuscular Mycorrhizal Fungal Detection Sulfiah, Siti; Sukarno, Nampiah; Gunawan, Agustin Wydia
Jurnal Sumberdaya Hayati Vol. 7 No. 1 (2021)
Publisher : Departemen Biologi, Institut Pertanian Bogor

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.29244/jsdh.7.1.36-40

Abstract

Arbuscular mycorrhizal (AM) fungi form mutualistic symbiosis with root of host plant. Staining technique to detect AM fungi usually used hazardous chemical. The ink stain and vinegar were used as an alternative technique to replace trypan blue and lactic acid in root staining method. This study aimed to determine time for clearing root cell contents and ink stain type to visualize the best AM fungal structures within the root observed under light microscope. Pueraria phaseoloides var. javanica roots colonized by AM fungi were cut into 1 cm long, cleared in KOH solution and stained. Four clearing time were done vis 5, 10, 15 and 20 minutes, and four stains were used namely Shaeffer black ink, Parker Quink blue ink, blue stamp ink, and trypan blue. Twenty stained roots were taken randomly from each tratment, and observed. Root clearing process for 20 minutes showed the best result. Only Shaeffer black ink and trypan blue produced clear structure of external hyphae, internal hyphae, vesicles and arbuscules. Arbuscular structure stained only by Shaeffer black ink and trypan blue. This indicated that Shaeffer black ink could be used as an alternative stain to detect AM fungi within the root of host plant
The Effects of Root Endophytic and Arbuscular Mycorrhizal Fungi on Growth and Curcumin Content of Temulawak (Curcuma xanthorrhiza) : The Effects of Root Endophytic and Arbuscular Mycorrhizal Fungi on Growth and Curcumin Content of Temulawak (Curcuma xanthorrhiza) Putra, Sukma Triperdana; Iswantini, Dyah; Widyastuti, Utut; Fadillah, Wendi Nurul; Sukarno, Nampiah
Jurnal Sumberdaya Hayati Vol. 8 No. 2 (2022)
Publisher : Departemen Biologi, Institut Pertanian Bogor

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.29244/jsdh.8.2.49-56

Abstract

Temulawak (Curcuma xanthorrhiza) is known to be used as ingredient in Jamu and traditionally utilized to cure a range of illness. The global market demand for the rhizome of the temulawak affecting the urgency of sustainable rizhome production. The aim of this research was to analyze the effects of root endophytic and arbuscular mycorrhizal fungi on growth and rhizome curcumin content of the temulawak. There were five fungal inoculation treatments on C. xanthorrhiza seedling grown in sterilized and unsterilized growth media. They were root endophytic fungi A. niger (A), Glomus sp. (G), combination of A. niger and AMF Glomus sp. applied at the same time (GA) and at different time (G-A) and control. The experiment was conducted under greenhouse condition. The plant growth parameters, fungal colonization, and rhizomes curcumin content were measured. The result showed that there was a significant interaction between fungal inoculation and control treatments. In general, fungal inoculation on both sterilized and unsterilized growth media increased the plant growth and rhizomes curcumin content. On the sterilized growth media, C. xanthorrhiza inoculated by A. niger showed the best growth parameter. On the other hand, the best growth parameter on the unsterilized media was showed by C. xanthorrhiza inoculated by mixed fungal inoculums. The highest amount of curcumin content was showed by C. xanthorrhiza inoculated by Glomus sp. as a single inoculation.
Isolasi dan Identifikasi Cendawan Endofit Akar Anggrek Epifit Vanda sp. dan Anggrek Terestrial Spathoglottis plicata: Isolation and Identification of Root Endophytic Fungi in Epiphytic orchid Vanda sp. and Terrestrial Orchid Spathoglottis plicata Rahayu, Nadiya Dwi; Listiyowati, Sri; Rafi, Mohamad; Sandra, Edhi; Mursidawati, Sofi; Risna; Sukarno, Nampiah
Jurnal Sumberdaya Hayati Vol. 10 No. 4 (2024): 2024
Publisher : Departemen Biologi, Institut Pertanian Bogor

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.29244/jsdh.10.4.198-204

Abstract

Endophytic fungi play an important role in the orchid lifecycle by aiding seed germination and plant development. Information on the diversity of endophytic fungi in Indonesian orchids, particularly Vanda epiphytic orchid and Spathoglottis terrestrial orchid, is still limited. This study aimed to isolate and identify endophytic fungi from the roots of Vanda sp. and Spathoglottis plicata orchids collected from Banjarbaru, South Kalimantan, and Kendari, Southeast Sulawesi. Isolation was performed using Potato Sucrose Agar (PSA) medium, and morphological identification was carried out through macroscopic and microscopic observations. A total of four endophytic fungal isolates were identified, including Nigrospora sp. and Penicillium sp. from Vanda sp. roots, and two isolates of Fusarium sp. from Spathoglottis plicata roots. The four fungal isolates obtained had aerial mycelium and septate hyphae, as well as conidia with diverse shapes. The diversity of endophytic fungi in orchid species could be influenced by the fungal affinity on the specific microhabitat conditions of each tissue and host plant species.
Morphological and Molecular Identification of Culturable Arbuscular Mycorrhizal Fungi (AMF) Associated with Pternandra azurea from Martabe Batang Toru Forest, North Sumatra, Indonesia Maulani, Nail Izzatul; Sukarno, Nampiah; Yulandi, Adi; Listiyowati, Sri; Kramadibrata, Kartini; Subagya, Mahmud; Anwar, Syaiful
HAYATI Journal of Biosciences Vol. 32 No. 5 (2025): September 2025
Publisher : Bogor Agricultural University, Indonesia

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.4308/hjb.32.5.1240-1250

Abstract

Arbuscular Mycorrhizal Fungi (AMF) form a mutualistic symbiosis with almost all host plant species and exist in various ecosystems. Studies of AMF diversity in Sumatra tropical rainforest plants are still limited. This research aimed to isolate and identify AMF associated with Pternandra azurea from Martabe Batang Toru forest, North Sumatra. The spores were obtained from the rhizosphere of P. azurea and propagated by trap culture using Pueraria javanica, Sorghum vulgare, and Zea mays. AMF spores were isolated using wet sieving and decanting techniques, then inoculated into roots of P. javanica grown in sterile zeolite to obtain a single-species culture. The AMF were identified based on spore morphology and molecular analysis using AML1/AML2 specific primers. A total of 13 AMF single-species cultures were obtained, and based on morphological characteristics, they were identified as Claroideoglomus lamellosum, C. claroideum, Acaulospora rehmii, A. longula, and Glomus ambisporum. Further identification using molecular analysis, the cultures were identified as C. etunicatum, A. spinosa, A. longula, and G. ambisporum. Molecular identification resulted in different AMF species from morphological identification. Claroideoglomus was dominant AMF observed. All cultures formed internal hyphae, arbuscules, and vesicles within the roots. The AMF cultures obtained can be used as biofertilizers to restore degraded ecosystems.
Optimasi simbiosis cendawan mikoriza arbuskula Acaulospora tuberculata dan Gigaspora margarita pada bibit kelapa sawit di tanah masam Optimizing arbuscular mycorrhizal fungi symbiosis Acaulospora tuberculata and Gigaspora margarita with oil palm seedling in acid soil) Happy WIDIASTUTI; Edi GUHARDJA; Nampiah SOEKARNO; L K DARUSMAN; Didiek Hadjar GOENADI; Sally SMITH
Menara Perkebunan Vol. 70 No. 2: 70 (2), 2002
Publisher : INDONESIAN OIL PALM RESEARCH INSTITUTE

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.22302/iribb.jur.mp.v70i2.128

Abstract

SummaryAM fungal symbiosis increase the uptake of P in oil palm seedlings. However the optimum condition of symbiosis has to be determined to get higher benefit of AM fungal symbiosis. Optimization of the symbiosis Acaulospora tuberculata and Gigaspora margarita with oil palm seedling in acid soil was determined. An experiment was conducted in polybag sized 40 x 60 cm contained sterilized Cikopomayak soil. Three factors studied were AM fungal species (A. tuberculata, G. margarita), inoculant dose (0.0; 12.5; 25.0; and 37.5% w/w), and fertilizer rate (0; 25; 50; and 100% recommended dose) and each treatment replicated three times. The result showed that optimum growth reached on the inoculant addition of 36% (w/w) in the form of infected roots, hypha, and spores and fertilizer dose of 25% for A. tuberculata, while for G. margarita was 40% (w/w) inoculant and 26% fertilizer. Efectivity of fertilizer and P uptake of oil palm seedling were significantly increased with AM fungi inoculation. P uptake of oil palm seedling inoculated with A. tuberculata increase. RingkasanSimbiosis cendawan mikoriza arbuskula (CMA) dapat meningkatkan serapan P pada pembibitan kelapa sawit. Namun, untuk mendapatkan keuntungan simbiosis yang tinggi perlu diketahui kondisi optimum simbiosis. Simbiosis CMA dengan tanaman sangat dipengaruhi tingkat hara dan dosis inokulum. Percobaan dilakukan dalam polibag berukuran 40 x 60 cm berisi tanah Cikopomayak steril. Tiga faktor yang diuji ialah spesies CMA (A. tuberculata, G. margarita), dosis inokulum campuran (0,0; 12,5; 25,0; dan 37,5% b/b), dosis pupuk (0; 25; 50; dan 100% dosis rekomendasi) dan masing masing perlakuan diulang tiga kali. Hasil percobaan menunjukkan bahwa pertumbuhan optimum dicapai pada pemberian inokulum berupa akar terinfeksi, hifa, dan spora 36% (b/b) dan pupuk 25% untuk A. tuberculata, sedangkan untuk G. margarita ialah 40% (b/b) inokulum dan pupuk 26%. Keefektifan pupuk dan serapan P meningkat secara nyata dengan inokulasi CMA
Penggunaan spora cendawan mikoriza arbuskula sebagai inokulum untuk meningkatkan pertumbuhan dan serapan hara bibit kelapa sawit Application of arbuscular mycorrhizal fungi spore as inoculant to increase growth and nutrient uptake of oil palm seedling Happy WIDIASTUTI; Nampiah SUKARNO; Latifah Kosim DARUSMAN; Didiek Hadjar GOENADI; Sally SMITH; Edi GUHARDJA
Menara Perkebunan Vol. 73 No. 1: 73 (1), 2005
Publisher : INDONESIAN OIL PALM RESEARCH INSTITUTE

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.22302/iribb.jur.mp.v73i1.160

Abstract

SummaryA green house experiment was conducted tostudy the effect of spore number and species ofAM fungi as inoculant of oil palm. Two species ofAM fungi was evaluated in this study namelyAcaulospora tuberculata and Gigaspora margaritaand three spore number were tested i. e 200, 350,and 500 spores. There two fungi have thepotential as AM fungi inoculant for oil palm. Thesoil used was acid soil from Cikopomayak, WestJava while the oil palm seedling was from OilPalm Research Institute, Medan. A polybag sized20 x 40 cm was used. Spores as type of inoculantaffect the oil palm growth in longer time. Thebest growth of the seedling in term of height,fresh, and dry weight was obtained byinoculation at 500 spores of A. tuberculata andG. margarita. However, at 500 spores perpolybag, growth and N, P, and K uptake ofseedlings inoculated with A. tuberculata andG. margarita were not significantly differentexcept for seedling and root fresh weight. Oilpalm seedling inoculated with A. tuberculata at500 spores per seedling resulted higher root andseedling fresh weight compared with thoseinoculated with G. margarita. The different effectof seedling on A. tuberculata and G. margaritainoculation at 200 and 350 spores per seedlingwere only observed in plant height, fresh and dryweight of seedlings. The plant height, fresh, anddry weight of seedlings inoculated withA. tuberculata at 200 and 350 spores per seedlingwere higher compared with those inoculatedwith G. margarita. In addition inoculation withA. tuberculata at 200 spores per seedling resultedhigher N and K uptake of seedling compared withthose inoculated with G. margarita.RingkasanSuatu penelitian rumah kaca telah dilakukanuntuk mempelajari pengaruh jumlah spora danspesies cendawan mikoriza arbuskula (CMA)sebagai inokulum pada bibit kelapa sawit. Duaspesies CMA yang diuji ialah Acaulosporatuberculata dan Gigaspora margarita sedangkanjumlah spora yang diuji ada tiga tingkat yaitu200, 350, dan 500 spora. Bibit kelapa sawitberumur dua bulan ditanam di polibag berukuran20 x 40 cm yang berisi tanah yang bereaksimasam berasal dari Cikopomayak. Hasil yangdiperoleh menunjukkan bahwa spora sebaganokulum bibit kelapa sawit dapat mempengaruhipertumbuhan kelapa sawit namun diperlukanwaktu yang lebih lama untuk mendapatkanrespons inokulasi. Pertumbuhan tertinggi padapeubah tinggi bibit, bobot basah, dan bobotkering diperoleh pada inokulasi sebanyak 500spora per polibag baik untuk A. tuberculatamaupun G. margarita. Namun, pada inokulasisebanyak 500 spora per polibag, pertumbuhandan serapan N, P, dan K bibit yang diinokulasiA. tuberculata dan G. margarita tidak berbedanyata kecuali pada peubah bobot basah akar danbobot basah bibit. Bobot basah akar dan bobotbasah bibit kelapa sawit yang diinokulasiA. tuberculata sebanyak 500 spora, lebih tinggidibandingkan dengan bibit yang diinokulasidengan G. margarita pada jumlah spora yangsama. Pengaruh spesies hanya dapat ditunjukkanpada inokulasi 200 dan 350 spora khususnya padapeubah tinggi bibit, bobot basah, dan bobotkering bibit. Tinggi bibit, bobot basah dan bobotkering bibit yang diinokulasi A. tuberculata padajumlah spora 200 dan 350 per polibag lebih tinggidibandingkan dengan yang diinokulasiG. margarita. Tampak bahwa inokulasiA. tuberculata dengan 200 spora per polibagmenghasilkan serapan N dan K lebih tinggidibandingkan dengan yang diinokulasiG. margarita pada jumlah spora yang sama.
Aktivitas fosfatase dan produksi asam organik di rhizosfer dan hifosfer bibit kelapa sawit bermikoriza *) Phosphatase activity and organic acid production in rhizosphere and hyphosphere of mycorrhizal oil palm seedling Happy WIDIASTUTI; Nampiah SUKARNO; Latifah Kosim DARUSMAN; Didiek Hadjar GOENADI; Sally SMITH; Edi GUHARDJA
Menara Perkebunan Vol. 71 No. 2: 71 (2), 2003
Publisher : INDONESIAN OIL PALM RESEARCH INSTITUTE

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.22302/iribb.jur.mp.v71i2.164

Abstract

SummaryStudies on the mechanism of the higher Puptake of oil palm seedling colonized witharbuscular mycorrhizal fungi throughsolubilizing of fixed P by organic acid orhydrolysis of organic P by phosphatase activityhave not been reported yet. This experiment wasaimed to examine the phosphatase activity andproduction of organic acids in rhizosphere andhyphosphere, mycorrhizal and non-mycorrhizaloil palm seedling. Oil palm seedling were grownfor 26 weeks in sterilized Cikopomayak acid soilin 20.5 cm diameter pots with three compart-ments, a central one for root growth(rhizosphere) and two adjacent on both side nextto the root compartment for hyphal growth(hyphosphere). Compartmentation was accom-plished by a 0.25 mm stainless steel filter. Allcompartment received a uniform concentration ofphosphorus (300 P mg kg -1 soil) either in organic(Na-phytate) or inorganic NH 4 HPO 4 form.Acaulospora tuberculata inoculum was establish-ed in pot culture using Pueraria phaseoloides as ahost, while Gigaspora margarita was propagatedusing maize as a host. AM fungal inoculumapplied as mixed propagules in optimum dosage.The experiment was conducted to asses ninetreatments combination between AM inoculation(without, A. tuberculata, and G. margarita) andsources of P (without P, inorganic P NH 4 HPO 4 ,and organic P Na phytate). Factorial in completerandomized design with two factors and threereplications was used in this research. In thehyphal compartment acid phosphatase activitywas much higher than alkaline phosphataseactivity, while in the rhizosphere alkalinephosphatase activity was higher compared toacid phosphatase activity. Acid phosphataseactivity in rhizosphere of oil palm seedlingsinoculated with A. tuberculata was significantlyhigher compared to uninoculated seedlings.However, both acid phosphatase activity andalkaline phosphatase activity were slightlyenhanced by mycorrhizal inoculation. In contrast,organic acid production between inoculatedseedling and uninoculated seedling was notsignificantly different. It seems that AM fungalsymbiosis with oil palm enhance mineralizationof organic P in spite of solubilization ofinorganic P.RingkasanMekanisme peningkatan pertumbuhankelapa sawit bermikoriza khususnya yangdisebabkan aktivitas pelarutan P anorganik yangterfiksasi melalui pelarutan oleh asam organikatau hidrolisis P organik oleh aktivitas fosfataseelum dilaporkan. Percobaan ini bertujuanmenetapkan aktivitas fosfatase dan produksi asamorganik di rhizosfer dan hifosfer, bibit kelapasawit bermikoriza dan tidak bermikoriza. Kelapasawit ditumbuhkan selama 26 minggu pada tanahmasam Cikopomnayak steril pada pot ber-diameter 20,5 cm yang terbagi atas tiga daerah,ruang tengah untuk pertumbuhan akar (rhizosfer)dan dua daerah di sebelahnya untuk pertumbuhanhifa (hifosfer). Penyekatan pot menggunakanfilter stainless steel berukuran lubang 0,25 mm.Semua daerah dipupuk P pada konsentrasi300 P mg kg -1 tanah baik dalam bentuk organik(Na-phytate) maupun anorganik (NH 4 HPO 4 )Inokulum CMA merupakan hasil perbanyakandengan sistem kultur pot menggunakan inangPueraria phaseoloides untuk Acaulosporatuberculata sedangkan untuk Gigasporamargarita menggunakan inang jagung. InokulumCMA berupa propagul campuran pada dosisoptimum. Percobaan dilakukan untuk mengujisembilan perlakuan yang merupakan kombinasiantara inokulasi CMA (tanpa, A. tuberculata,dan G. margarita) dan sumber P (tanpa P,anorganik P NH 4 HPO 4 , dan organik P Naphytate). Rancangan percobaan ialah rancanganacak lengkap faktorial dengan tiga ulangan untukmasing-masing perlakuan. Di hifosfer aktivitasfosfatase asam lebih tinggi daripada fosfatasealkalin, sedangkan di rhizosfer aktivitas fosfatasealkalin lebih tinggi dibandingkan dengan aktivitasfosfatase asam. Aktivitas fosfatase asam dirhizosfer bibit kelapa sawit yang diinokulasi A.tuberculata nyata lebih tinggi dibandingkandengan bibit yang tidak diinokulasi. Aktivitasfosfatase asam dan fosfatase alkalin sedikit lebihtinggi dengan inokulasi CMA. Sebaliknya,produksi asam organik antara bibit yangdiinokulasi dan bibit yang tidak diinokulasi tidakberbeda nyata. Tampak bahwa simbiosis CMAdengan kelapa sawit lebih meningkatkanmineralisasi P organik dan kurang meningkatkanpelarutan P anorganik.
Arsitektur akar bibit kelapa sawit yang diinokulasi beberapa cendawan mikoriza arbuskula Root architecture of oil palm seedling inoculated with selected arbuscular mycorrhizal fungi Happy WIDIASTUTI; Edi GUHARDJA; Nampiah SUKARNO; Latifah KOSIM DARUSMAN; Didiek Hadjar GOENADI; Sally SMITH
Menara Perkebunan Vol. 71 No. 1: 71 (1), 2003
Publisher : INDONESIAN OIL PALM RESEARCH INSTITUTE

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.22302/iribb.jur.mp.v71i1.182

Abstract

Summary Oil palm is mostly cultivated in acid soil. The growth constraint of plant in acid soil is the limited availability of phosphorus (P) nutrient. Improvement of root system morphology and architecture have an important aspect since P is immobilized nutrient. Colonization of oil palm by rrbuscular mycorrhizal fungi increase the P uptake of plant. However, there is no information related to the effect of AM fungal colonization on oil palm root morphology and architecture.        A research has been conducted to asses the effect of colonization of two species of AM fungi on root system morphology and architecture of oil palm seedling. The research was conducted using Cikopomayak acid soil as medium in simple glass chamber. The plant material was from Indonesian Oil Palm Research Institute, Medan while AM fungal inoculum was produced using pot culture. Six treatments assesed are combination of three levels of  AM fungi inoculation (without inoculation with, Acaulospora tuberculata and Gigaspora margarita) and two levels of  fertilization (without, and with fertilizer). The result showed that colonization of AM fungi could change the root system morphology, and root architecture. The root fresh weight, root dry weight, length, and volume were significantly higher with the AM fungi colonization especially A. tuberculata inoculation. However, specific root weight was not significantly different between inoculated and uninoculated. The enhancement was significantly observed 26 weeks after inoculation. Biside that, proportion of secondary root of oil palm inoculated with AM fungi was higher compared to primary root. Fertilization tend to reduced root growth. Fertilization reduced significantly root shoot ratio of inoculated as well as uninoculated seedlings. The rooting volume was higher in inoculated seedling compared to uninoculated. The highest enhancement of N, P, and K uptake was observed 26 weeks after inoculation. The better root morphology and architecture might be one mechanisms of AM fungi colonized oil palm seedlings in increasing P uptake. Ringkasan Umumnya tanaman kelapa sawit ditanam pada tanah masam. Hambatan pertumbuhan tanaman pada tanah masam adalah terbatasnya ketersediaan nutrisi P (fosforus). Oleh sebab itu perbaikan sistem morfologi dan arsitektur akar memiliki aspek yang penting disebabkan P merupakan nutrisi yang tidak mudah bergerak. Kolonisasi tanaman kelapa sawit dengan cendawan  mikoriza arbuskula (CMA) akan meningkatkan penyerapan P oleh tanaman.  Namun, hubungan antara simbiosis  CMA dengan arsitektur perakaran kelapa sawit belum diketahui. Penelitian ini dilakukan untuk mempelajari pengaruh kolonisasi dua spesies CMA pada sistem morfologi dan arsitektur akar bibit tanaman kelapa sawit. Percobaan  dilakukan menggunakan tanah masam Cikopomayak yang mengandung Al tinggi sebagai medium dalam kultur pot kaca yang sederhana. Kecambah kelapa sawit berasal dari Pusat Penelitian Kelapa Sawit (PPKS), Medan,  sedangkan inokulum CMA diproduksi menggunakan kultur pot. Enam perlakuan yang diuji merupakan kombinasi tiga jenis inokulasi CMA ( tanpa inokulasi, inokulasi dengan Acaulospora tuberculata dan Gigaspora margarita) serta dua tingkat pemupukan (tanpa, dan dengan pemupukan). Hasil yang diperoleh menunjukkan bahwa inokulasi CMA merubah sistem morfologi dan arsitektur perakaran. Bobot basah, bobot kering, panjang dan volume akar nyata lebih tinggi pada tanaman yang dikolonisasi CMA khususnya A. tuberculata. Namun berat akar spesifik tidak beda nyata antara yang diinokulasi dan tanpa inokulasi. Peningkatan berat akar sangat nyata setelah 26 hari diinokulasi. Di samping itu proporsi akar sekunder lebih tinggi dibandingkan dengan akar primer pada  tanaman kelapa sawit yang diinokulasi CMA. Pemupukan pada umumnya menurunkan pertumbuhan akar dan secara nyata menurunkan nisbah akar pucuk. Volume perakaran lebih besar pada bibit kelapa sawit yang diinokulasi dibandingkan dengan yang tidak diinokulasi.  Peningkatan serapan  N, P,  dan  K tertinggi teramati 26 minggu setelah inokulasi. Morfologi perakaran yang lebih baik demikian pula arsitektur perakaran mungkin merupakan mekanisme bibit kelapa sawit bermikoriza dalam meningkatkan serapan P.
Pemacuan Pertumbuhan Melon (Cucumis melo L.) dengan Cendawan Mikoriza Arbuskula dan Bakteri Azospirillum sp. Tetelepta, Lady Diana; ,, Triadiati; Sukarno, dan Nampiah
Jurnal Agronomi Indonesia (Indonesian Journal of Agronomy) Vol. 44 No. 2 (2016): Jurnal Agronomi Indonesia
Publisher : Indonesia Society of Agronomy (PERAGI) and Department of Agronomy and Horticulture, Faculty of Agriculture, IPB University, Bogor, Indonesia

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (341.165 KB) | DOI: 10.24831/jai.v44i2.13490

Abstract

ABSTRACTMelon (Cucumis melo L.) is a high economic value horticultural crop that is cultivated in some regions of Indonesia under fertilization management. Application of inorganic fertilizer continuously can reduce soil microbial abundance. One of the soil microbial that promote plant growth is arbuscular mycorrhizal fungi (AMF) and Azospirillum sp. The aim of this study was to analysed the effect of AMF and Azospirillum sp. in promoting growth and production of melon. The experiment was carried out in a greenhouse and was arranged in a completely randomized design with five replicates. Five treatments tested were: control, fertilized with NPK, inoculated with AMF, inoculated with Azospirillum sp., inoculated with AMF + Azospirillum sp. The results showed that the effect of AMF on root growth and shoot growth were similar to NPK fertilizer. Azospirillum sp. increased root growth. On the other side, the effect of Azospirillum sp. on shoot growth was similar to NPK fertilizer. However, AMF and Azospirillum sp. inoculation solely increased plant height, fruit weight, fruit diameter, flavor and length of fruit storage. Meanwhile, combination of AMF and Azospirillum sp. increased plant height, root growth, shoot growth, fruit weight, fruit diameter, flavor and length of fruit storage. This study revealed that application of AMF and Azospirillum sp. in melon cultivation was more effective and efficient than NPK fertilizer.Keywords: arbuscular mycorrhizal fungi, Azospirillum sp., Cucumis melo L.
Isolasi, Identifikasi, dan Produksi Miselia Rhizopus sp. Berkadar Asam Nukleat Rendah untuk Pengembangan Mikoprotein Firmansyah, Riza; Sukarno, Nampiah; Suharsono, Utut Widyastuti; Sukarno, Sukarno; Fadillah, Wendi Nurul
Jurnal Ilmu Pertanian Indonesia Vol. 29 No. 2 (2024): Jurnal Ilmu Pertanian Indonesia
Publisher : Institut Pertanian Bogor

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.18343/jipi.29.2.179

Abstract

Fungi, including Rhizopus sp., are food sources that commonly contain high nucleic acid levels. Therefore, the nucleic acid content must be reduced to achieve health standard requirements. This study aimed to isolate, identify, and produce Rhizopus sp. mycelium containing low nucleic acid. The Rhizopus spp. were isolated from tempeh collected from 12 different areas in Indonesia. Fungal identification was conducted based on morphological characteristics. The fungal isolates were selected based on mycelial growth and spore production on PDA. Biomass production of mycelium was carried out in potato extract and soybean extract media obtained from 200 g/L and 333.3 g/L, respectively. In each medium, 6 sugar levels were added, namely 0, 2, 3, 4, 5, and 6 g/L. Mycelium nucleic acid content reduction was achieved by heat treatment at 50°C and 60°C for 15 minutes and measured by a spectrophotometer at 260 nm. Fifty-eight isolates that were identified into 3 species were obtained in this experiment: R. oryzae, R. stolonifera, and R. microsporus. R. Microsporus had higher mycelium biomass and lower spore number than the other species. R. Microsporus produced a higher mycelium biomass in the soybean extract medium with 5 g/L additional sugar. The nucleic acid content of the 50°C heat-treated mycelium was 1.82% and 1.73% at 65°C. These values fulfilled the standard of mycelial nucleic acid content permitted in food by the USDA. Keywords: morphology, Rhizopus microspores, spore, soybean extract, tempeh
Co-Authors , Triadiati ADI YULANDI Agustin Wydia Gunawan Alex Hartana Alex Hartana ALEX HARTANA Anastastia Raditya Hidayanti Astri Ariyani Atit Kanti Atit Kanti Cici Rahmawati Cinta Badia Br Ginting, Rohani Dedi Fardiaz Desi Maria Panjaitan Didiek Hadjar Goenadi Dyah Iswantini Edhi Sandra Edi Guhardja Endang Sukara Eris Septiana Fachrian Hasmi Pasaribu Fachriyan Hasmi Pasaribu Fadillah, Wendi Nurul Franco, Christopher MM Hamim Hamim HAPPY WIDIASTUTI Hidayanti, Anastastia Raditya I Made Sudiana I Nyoman Pugeg Aryantha Ibnu Qayim Irmanida Batubara Kartini Kramadibrata Kemala S. Nagur L K Darusman Lady Diana Tetelepta, Lady Diana Latifah K Darusman latifah K Darusman Latifah K. Darusman LATIFAH KOSIM DARUSMAN Latifah Kosim Darusman Latifah Kosim Darusman M. Rafi M. Sukarno Mashuri Waite Mashuri Waite Maulani, Nail Izzatul Mega Putri Amelya Michael Michael Mien Ahmad Rifai Mujahidah, Shofia Mujahidah, Shofia Mulya Sari Nadia T. Hendartina Nadiya Dwi Rahayu Novriyandi Hanif Partomuan Simanjuntak Putra, Sukma Triperdana Rahayu Laelandi Rahayu, Nadiya Dwi Rahminiwati, Min Rida Oktorida Khastini Risna Riza Firmansyah Riza Zainuddin Ahmad ROHANI CINTA BADIA GINTING Rohani Cinta Badia Ginting Sally SMITH SIHEGIKO KANAYA Sihegiko Kanaya Sintho Wahyuning Ardie Soekisman Tjitrosoedirdjo Sofi Mursidawati Sofi Mursidawati Sri Listiyowati Subagya, Mahmud Sukarno Sukarno Sukmarayu P Gedoan Sukmarayu P. Gedoan Sulfiah, Siti Syaiful Anwar Utut Widyastuti UTUT WIDYASTUTI Utut Widyastuti UTUT WIDYASTUTI UTUT WIDYASTUTI Utut Widyastuti Suharsono Utut Widyastuti Suharsono† Waite, Mashuri Wei Zhang Wendi Nurul Fadillah Wendi Nurul Fadillah Yanti Novera Yasuyuki Hashidoko† Yuyun Nisaul Khairillah Za’aziza Ridha Julia